The lectin-like domain of TNF reduces pneumonia-induced injury in the perfused human lung
Mazharul Maishan, Hiroki Taenaka, Bruno Evrard, Shotaro Matsumoto, Angelika Ringor, Carolyn Leroux, Rudolf Lucas, Michael A. Matthay
Mazharul Maishan, Hiroki Taenaka, Bruno Evrard, Shotaro Matsumoto, Angelika Ringor, Carolyn Leroux, Rudolf Lucas, Michael A. Matthay
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Research Article Infectious disease Pulmonology Therapeutics

The lectin-like domain of TNF reduces pneumonia-induced injury in the perfused human lung

Abstract

Bacterial pneumonia is the most common cause of acute respiratory distress syndrome (ARDS), characterized by disrupted pulmonary endothelial barrier function, hyperinflammation, and impaired alveolar epithelial fluid clearance. ARDS has a high mortality rate and no proven pharmacological treatments, stressing the need for new targeted therapies. The TIP peptide, mimicking the lectin-like domain of TNF, directly binds to the α subunit of the epithelial Na+ channel, expressed in both alveolar epithelial and capillary endothelial cells, and may increase lung endothelial barrier function and alveolar fluid clearance during bacterial infection. This study tested these potential therapeutic mechanisms of the TIP peptide in a clinically relevant preparation of the ex vivo–perfused human lung injured by Streptococcus pneumoniae. Therapeutic administration of the TIP peptide reduced pulmonary barrier permeability to protein and lung edema formation, increased alveolar edema fluid clearance, and produced an antiinflammatory effect in the airspaces with reductions in IL-6 and IL-8 levels. Additionally, the TIP peptide reduced the translocation of bacteria into the circulation. These findings establish 3 mechanisms of benefit with the TIP peptide to reduce injury in the human lung and support the clinical relevance as a potential therapeutic for pneumococcal bacterial pneumonia.

Authors

Mazharul Maishan, Hiroki Taenaka, Bruno Evrard, Shotaro Matsumoto, Angelika Ringor, Carolyn Leroux, Rudolf Lucas, Michael A. Matthay

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Figure 4

The TIP peptide does not alter the infiltration of immune cells in response to S. pneumoniae in the distal airspaces of the human lung.

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The TIP peptide does not alter the infiltration of immune cells in respo...
(A) The number of cells retrieved in the BAL from the distal airspaces was significantly greater in the human lungs that were instilled with S. pneumoniae than the control lungs that did not receive bacteria. Treatment with the TIP peptide resulted in a similarly significantly greater number of cells in the BAL than in control lungs that was comparable to the levels in the lungs that received bacteria but not the TIP peptide. (B) A sample of the BAL was used to determine the cell differential and measure the number of polymorphonuclear neutrophils (PMNs) in the BAL, which was significantly greater in the human lungs that were instilled with S. pneumoniae than in control lungs. The treatment with the TIP peptide did not change the number of PMNs in the BAL compared to lungs that received bacteria but not the TIP peptide. All data are presented as the base-10 log transformation of the number of cells or PMNs/mL. *P < 0.05, **P < 0.01, ****P < 0.0001, 1-way ANOVA with Tukey’s multiple comparisons test for replicate experiments, with n = 6 for each group shown in A and B.